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\$\begingroup\$anything is possible but a 10% higher base frequency might not be convenient for divide ratios. Both f XTAL's are stock at all major distributors\$\endgroup\$
– Sunnyskyguy EE75Oct 2 '16 at 15:30

\$\begingroup\$Do you need a crystal or an oscillator? You say oscillator, but a simple crystal is more likely, as a DTMF decoder IC would probably have the oscillator circuit inside it, and need only the crystal and likely some loading caps.\$\endgroup\$
– Chris StrattonOct 2 '16 at 17:30

1

\$\begingroup\$The only way it'll work is if you use the wrong crystal on the matching encoder too. Then they can talk to each other but nobody else can listen in...\$\endgroup\$
– Brian DrummondOct 2 '16 at 17:39

4 Answers
4

Assuming that you are using a DTMF chip (there is no information in your question) then the chip will use timing derived from the crystal oscillator to operate the switched capacitor filters in the chip. For example, the MT8870D datasheet says:

Separation of the low-group and high group tones is achieved by applying the DTMF signal to the inputs of two
sixth-order switched capacitor bandpass filters, the bandwidths of which correspond to the low and high group
frequencies. The filter section also incorporates notches at 350 and 440 Hz for exceptional dial tone rejection (see
Figure 3). Each filter output is followed by a single order switched capacitor filter section which smooths the signals
prior to limiting. Limiting is performed by high-gain comparators which are provided with hysteresis to prevent
detection of unwanted low-level signals. The outputs of the comparators provide full rail logic swings at the
frequencies of the incoming DTMF signals. [Emphasis mine.]

In addition, page 10 shows one frequency for the crystal / clock with no deviation!

Will it have any problem using the 4.0 MHZ instead of the 3.5795 one?

It certainly will. The passbands of the filters will be out by \$ \frac {4.0}{3.5795} \$. Time to order the right crystal.

The DTMF decoder chip uses the crystal frequency to set the detection frequencies. If the crystal frequency is not correct, the decoder will not detect the standard DTMF frequencies.

You need to use the crystal frequency specified by the chip manufacturer.

As a side note - you can use this requirement to your advantage. One project that I did many years ago required that we generate low-frequency signals. It turned out that we could use an off-the-shelf DTMF encoder chip that uses the same crystal as your decoder. This gave much better long-term stability than the original R-C timing network used in the original design.

FWIW - that crystal frequency used to be one of the most-readily available crystals. That's because it was used in every color TV set manufactured to receive NTSC signals.

It is very unlikely to work. Since you did not reveal what chip you are referring to, we can only offer a generic response. It is rarely beneficial to omit important details in your question.

3.579545 MHz crystals appear to be readily available for a few cents. So cheap that shipping will likely cost several times the cost of the crystal. Oscillator modules for 3.579545 MHz are also widely available, not sure where you are looking?

Note that many/most DTMF generator or decoder chips have built-in oscillator circuits, so a simple crystal is all that is required.

\$\begingroup\$It is not clear why you think you need an oscillator module? The MT8870D chip has a built-in oscillator circuit. Simply connect the OSC1 and OSC2 pins to a 3.579545 MHz crystal.\$\endgroup\$
– Richard CrowleyOct 3 '16 at 7:45